• Laboratory Ball Mill with Four Grinding Stations Providing Uniform Particle Size Reduction and Sample Mixing for Laboratory
  • Laboratory Ball Mill with Four Grinding Stations Providing Uniform Particle Size Reduction and Sample Mixing for Laboratory
  • Laboratory Ball Mill with Four Grinding Stations Providing Uniform Particle Size Reduction and Sample Mixing for Laboratory
  • Laboratory Ball Mill with Four Grinding Stations Providing Uniform Particle Size Reduction and Sample Mixing for Laboratory
  • Laboratory Ball Mill with Four Grinding Stations Providing Uniform Particle Size Reduction and Sample Mixing for Laboratory
Laboratory Ball Mill with Four Grinding Stations Providing Uniform Particle Size Reduction and Sample Mixing for Laboratory

Laboratory Ball Mill with Four Grinding Stations Providing Uniform Particle Size Reduction and Sample Mixing for Laboratory

제품 상세 정보:

원래 장소: 중국 후난성
브랜드 이름: TENCAN
인증: CE ISO
모델 번호: QXQM-16

결제 및 배송 조건:

최소 주문 수량: 1세트
가격: 협상 가능
포장 세부 사항: 상자 또는 합판 케이스
배달 시간: 전액 지불 한 후 10-15 일
지불 조건: T/T, 서부 동맹
공급 능력: 한 달에 150 세트
최고의 가격 접촉

상세 정보
제품명: 실험실 이중 행성 공 공장 모델번호: QXQM-16
총량: 16L 최대 용량: 5.28L
속도를 회전시킵니다: 60-510 rpm 전압: 380V-50Hz
힘: 3.0kW 속도 제어: 주파수 변환기
유형: 볼 밀
강조하다:

laboratory ball mill with four stations

,

ball mill for uniform particle reduction

,

laboratory sample mixing ball mill

제품 설명

Laboratory Ball Mill with Four Grinding Stations Providing Uniform Particle Size Reduction and Sample Mixing for Laboratory

 

Overview

The omnidirectional laboratory ball mill serves as an essential instrument in advanced material processing, demonstrating superior performance in milling, fine grinding, powder mixing, nano-powder synthesis, new product development, and small-batch production. Tencan's planetary ball mill is widely recognized for its streamlined design, high operational efficiency, low-noise performance, and versatile functionality. It represents an ideal solution for R&D centers, universities, and corporate laboratories requiring ultra-fine powder samples. Designed with a four-station configuration, the unit allows parallel processing of up to four different samples. Additionally, when equipped with specialized vacuum ball mill jars, the system can effectively prepare powder samples under vacuum conditions.

Working Principle

A typical omnidirectional laboratory ball mill integrates four grinding stations on a single rotating platform. As the disc turns, each milling jar rotates around its own axis while simultaneously revolving 360 degrees around the central axis of the disc. Inside the jars, grinding balls move at high velocity to effectively pulverize and homogenize the samples. The equipment supports both dry and wet processing methods, accommodating a diverse range of materials and initial particle sizes. It can achieve a final particle size as fine as 0.1 micrometers, making it suitable for applications across numerous disciplines including geology, mining, metallurgy, electronics, construction materials, ceramics, chemical engineering, light industry, pharmaceuticals, and environmental protection.

 

Applications

The omnidirectional laboratory ball mill has been widely adopted across multiple industrial sectors including geology, mining, metallurgy, electronics, construction materials, ceramics manufacturing, chemical engineering, light industry, pharmaceutical science, and environmental protection. It demonstrates particular suitability for specialized production fields such as electronic ceramics, structural ceramics, magnetic materials, lithium cobalt oxide, lithium manganese oxide, catalysts, phosphors, long-afterglow phosphors, rare earth polishing powders, and electronic glass powders. Additional applications include fuel cell materials, zinc oxide varistors, piezoelectric ceramics, nanomaterials, wafer ceramic capacitors, MLCC, thermistors (PTC, NTC), dielectric ceramics, alumina ceramics, zirconia ceramics, phosphor materials, zinc oxide powder, cobalt oxide powder, Ni-Zn ferrite, and Mn-Zn ferrite.

Features

  1. The equipment performs 360-degree planetary movement without dead angles, ensuring finer and more uniform ground powders

  2. Precision gear transmission mechanism guarantees consistent and reproducible experimental outcomes

  3. Capable of processing four distinct powder samples simultaneously in a single operation

  4. Incorporated frequency conversion control and programmable operation system

  5. Effectively resolves common issues of material sedimentation and adhesion to container walls

Advantages

Our planetary ball mill system, when configured with appropriate milling jars and balls, can process an extensive variety of powdered materials including mineral powders, fluorescent powders, glass powders, pigment powders, and numerous other substances. The following presents some representative powder samples for technical reference.

 

Technical Features

 

Drive Mode Gear drive and belt drive
Operation Mode Two or four grinding tanks working together
Maximum Loading Capacity 2/3 of the capacity of milling tank
Feeding Size Soil material≤10mm, other materials≤3mm
Output Granularity Smallest 0.1 μm
Rotational Speed Ratio 1/2
Max. Continuous Operating Time 48hours
Optional Modes of Speed Control Frequency conveter and automatic timing control
Materials of Jar Stainless steel, agate, nylon, corundum, zirconia, etc.

 

 

Technical Parameters

 

 

Parameters of Full-Directional Laboratory Ball mill
Type Power
(KW)		 Voltage
(V)		 Dimension(mm) Revolution Speed
(rpm)		 Rotation Speed
(rpm)		 Total Timing
(min)		 Alternating Run
Time of Forward &
Reversal Rotation
(min)
QXQM-0.4 0.75 220V-50Hz 1100*750*825 35-335 70-670 1-9999 1-999
QXQM-1 0.75 220V-50Hz 1100*750*825 35-335 70-670 1-9999 1-999
QXQM-2 0.75 220V-50Hz 1100*750*825 35-335 70-670 1-9999 1-999
QXQM-4 0.75 220V-50Hz 1100*750*825 35-335 70-670 1-9999 1-999
QXQM-6 0.75 220V-50Hz 1100*750*825 35-335 70-670 1-9999 1-999
QXQM-8 1.5 220V-50Hz 1220*900*960 35-290 70-580 1-9999 1-999
QXQM-10 1.5 220V-50Hz 1290*900*960 35-290 70-580 1-9999 1-999
QXQM-12 1.5 220V-50Hz 1220*900*960 35-290 70-580 1-9999 1-999
QXQM-16 3 380V-50Hz 1530*1070*1220 30-225 60-510 1-9999 1-999
QXQM-20 4 380V-50Hz 1700*1100*1200 25-215 50-430 1-9999 1-999
QXQM-40 5.5 380V-51Hz 1900*1450*1480 20-195 40-390 1-9999 1-999

 

Accessories of Mill Jars & Balls

 

Available Mill Jars:

 

304 stainless steel mill jar, 316 stainless steel mill jar, tungsten carbide mill jar, agate mill jar, alumina ceramic mill jar(also called corundum mill jar), zirconia mill jar, nylon mill jar, polyurethane mill jar, mill jar (PTFE), and etc.

Laboratory Ball Mill with Four Grinding Stations Providing Uniform Particle Size Reduction and Sample Mixing for Laboratory 0

 

Recommendation For Matching Solutions About Mill Jars & Materials
Categories of Materials Recommended Mill Jars
Soil and other Materials which are not allowed with any impurity Agate mill jar
Metal & nonmetal materials which are not allowed with any impurity Zirconia mill jar
High hardness materials like diamond, tungsten carbide Tungsten carbide mill jar
Strong add & alkali materials or other materials at high temperature PTFE mill jar
Iron ore materials with lower impurity sensitivity 304 Stainless steel mill jar
Pigment or other materials with later process under high temperature Nylon mill jar
Aluminum materials like ceramic glaze Corundum mill jar
Electronic materials like lithium battery Polyurethane mill jar
Easily oxidized materials or some special materials which need to
be protected under special atmosphere.		 Vacuum mill jar

 

Available Mill Balls:

 

304 stainless steel mill balls, 316 stainless steel mill balls, tungsten carbide mill balls, agate mill balls, alumina balls, zirconia mill balls, and etc.

 

Laboratory Ball Mill with Four Grinding Stations Providing Uniform Particle Size Reduction and Sample Mixing for Laboratory 1

 

References About Grinding Medias & Materials
Materials of
Grinding Media		 Hardness
(Mohs)		 Features
Zirconia Balls ≥9.0 Super wear-resistance, without any impurity, corrosion & high temperature resistance.
Stainless Steel Balls ≥6.0 Wear-resistant, general corrsion resistance, high temperature resistance.
Agate Balls ≥7.0 Super wear-resistance, used for medicine,food and other materials which can not be contaminated with metal, corrosion, and high temperature resistance.
Alumina Balls ≥8.5 Wear-resistant, corrsion resistance and high temperature resistance.
Tungsten Carbide Balls ≥9.0 Super wear-resistance, without any impurity, corrosion & high temperature resistance.

 

 

Matching Solutions for Mill Jars & Balls
Items Agate Balls Alumina Balls Stainless Steel Balls Zirconia Balls Tungsten Carbide Balls
Agate Mill jar        
Corundum Mill Jar    
Stainless Steel Mill Jar        
Zirconia Mill Jar      
Nylon Mill Jar      
PTFE Mill Jar      
Polyurethane Mill Jar      
Tungsten Carbide Mill Jar      
√ means: most suitable ▲ means: suitable

 

 

TENCAN Planetary ball mills are available in different versions.

Please refer to our website www.lab-mills.com for a complete overview of the different performance features.

 

태그:

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